Category: V-MAX

I present a lot on vCenter Operations Manager, a pretty neat monitoring tool from VMware. I like this tool a lot, because getting started with it is easy enough, and you have a plethora of features once you dive deeper in to it, and the best part about it? If you use the “big” version, -Enterprise or Enterprise Plus that is-, you can even monitor your applications and non-virtualized infrastructure. To monitor your things that go beyond your virtual machines, you can install so called “adapters”. In a nutshell, such an adapter is nothing more than a piece of software that tells vCenter Operations how to connect to things, and how to interpret the results it gets back. Now, EMC has created such an adapter for their VMAX and Symmetrix storage arrays, and has created a document that tells you how to set up and configure the adapter. That way, you can get loads of information from your storage system inside of vCenter Operations. Great stuff, right? Yeah ok, maybe not so great. The biggest problem, is that the documentation seems to have been created for the normal installable version of vCenter Operations. However, VMware has also created a version in the form of an appliance, a so called vApp. You download the files, deploy the vApp, enter the IP-addresses of both virtual machines that are contained in the vApp, and away you go. Wonderfully easy to install, and besides certain limits in scalability, it offers pretty much the same functionality as the normal installer. This is where the problem starts if you want to use the EMC Symmetrix adapter. You can find almost all adapters on the Integrien FTP site, and there’s a folder containing all the files you need to get started with the Symmetrix adapter right here. My teammate Matt Cowger actually wrote a nice blog post on how to configure and set up the Symmetrix adapter. This works like a charm, except for one tiny thing that you will run in to when using the vCenter Operations vApp. When you go to create an adapter instance, you need to give it a name, indicate if you want to auto discover everything, and you need to input a path to the “EMC Symmetrix Main Input Folder”. This is the folder where you actually archive all of the performance and configuration data from your storage system. The documentation tells you that this should be:

* If the main input folder is on a remote Windows machine, you must share the folder before you add the adapter instance. Do not map the main input folder. Windows services do not work with mapped drives. * If the main input folder is on a remote Linux machine, you must mount the folder to the Collector server before you add the adapter instance.

Problem being, that if you actually have your Solutions Enabler host running on Windows, you need to input a UNC path in the format of \\servername\sharename. But the problem here is that the virtual machines inside the vApp do not come with any access methods for Windows shares. You won’t find any tools like mount.cifs, smbclient or even have the option to specify smbfs as the type of file system to mount. And that means what? Well, you will have two options to overcome this situation. You can either install the Services for Unix/Services for NFS on your Windows host and set up an NFS share on your Windows machine. Or, you can migrate your Solutions Enabler host to a Linux machine and set up everything there. OK, so how do I configure this stuff under Linux? Glad you asked. You can follow some of the steps from the post that Matt created, but I’m going to write them down here anyway so you will have one page with all the steps you need. I’m going to assume that you have already set up your Linux machine, and that you have installed the Solutions Enabler package. Go in to the following file: /usr/emc/API/symapi/config and add these following lines at the end of the file, then make sure you save your changes (create a backup of the original, this is always a good idea):

Check if the daemon is up and running again by issuing the following command. The first line should show the Daemon State as “Running”:

/opt/emc/SYMCLI/bin/stordaemon show storstpd

Now, since the Analytics VM will be actually collecting the information from the adapter, it needs to be able to access the files from your Solutions Enabler host. Since the Analytics VM will be running the collection process as a user called “Admin”, we need to consider something. The admin user on the vCenter Operations appliance will be running with a user ID (UID) of 1000, and a group ID (GID) of 1003. That means that we should either install our Solutions Enabler using a user with the same user ID and group ID, or we need to map some things so that the admin user can actually access the files later on. In order to export the directory with the required files for the Symmetrix adapter, we will add the following line to /etc/exports: /usr/emc/API/symapi/stp *(rw,insecure,all_squash,anonuid=0,anongid=0) Obviously, this isn’t the best you can do from a security perspective, so feel free to change these options as needed for your environment, but basically what we are doing here is this:

The * just means that all IP-addresses have access. You can change this to for example the IP of the analytics VM.

RW means that the export is created with read and write access.

Insecure means that clients can use non-reserved ports.

All_squash means that all users get mapped to the anonymous user account

anonuid=0 means that the anonymous user ID will get mapped to the user ID 0. Be careful since this is the root account!

anonguid=0 means that the anonymous group ID will get mapped to the group ID 0. Again, this is the root group!

If you did install your Solutions Enabler as a different user, make sure that you map the anonuid and anonguid to the respective numerical IDs, to allow access to the files we are going to export. Now, we simply restart the NFS server, or have it re-read its config should it already be online, using:

/etc/init.d/nfsserver restart

or

exportfs –ra

We can check if the export is working, using the following command:

showmount –e localhost

Now, we create a scheduled job to archive the Solutions Enabler file. To do that, add the following line to your crontab: 2-57/5 * * * * /opt/emc/SYMCLI/bin/stordaemon action storstpd -cmd archive This will cause the job start at 2 minutes past the hour, and run in 5 minute intervals. Check under /usr/emc/API/symapi/stp/ttp, to see if you have a new directory. Normally the directory should be the serial number of your storage array, and contain compressed files inside of that directory that contain the information the Symmetrix adapter will need. Final thing to do right now, is log on to the analytics VM, and create a folder where we will mount the required files. For example create a directory called /media/VMAX. Once you have created the directory, edit /etc/fstab to contain the following line: 10.10.10.10: /usr/emc/API/symapi/stp /media/VMAX nfs rw,lock 0 0 Make sure you change the IP address to match that of your Solutions Enabler host, and then mount the directory using the following command:

mount /media/VMAX

If you don’t have a firewall blocking communication, you should now be able to traverse the subdirectories and access the files. Finally, you can now configure the adapter, and input the directory you just mounted as the “EMC Symmetrix Main Input Folder”. So, in the text field, simply enter the following as the path:

/media/VMAX/ttp

If you test the adapter now, you should see it come back successfully, and after giving it a bit of time, start working with the data you are now importing from your VMAX/Symmetrix system. 🙂

So folks, here’s a shameless copy of a blog post from one of the guys on my team. Dave was just brilliant and actually created a virtual storage appliance of the EMC VMAX. I think that’s downright awesome, and I wanted to help him get attention for what he did, so I asked him if I could copy his blog post, which is what you will find here:

As the title suggests there is indeed a Symmetrix VMAX VSA. I have been working on this project since shortly after EMC World. As I look back through my emails, I received the code on 6/3/11 and I have been working on it in almost all of my free time since then.

Now finally it will make its public debut this week at VMworld 2011 as part of the EMC Interactive Demo booth on the show floor. As part of its grand unveiling I thought I would tell you a little about what makes it work.

Now to make a few things clear up front, this is a science project, I cannot distribute it, it does “work”. As part of the lab (I will publish the guide) the student actually provisions an iSCSI disk from the VSA to a ESXi 5.0 host.

One of the first things I noticed with the code when trying to virtualize it. It’s HUGE. There are 2 parts to the VSA.

1. The Service Processor (SP). In a physical VMAX this is the 1U server that is racked in the system bay. It has a special image of Windows XP and contains all of the proprietary software used to manage a VMAX. If you own a VMAX this is what you will see EMC field service personnel using when they come to work on your system. This is NOT accessible by a end-user as it requires special RSA credentials that change weekly. (one reason we can’t distribute it). Its specs are 2vCPU and 2GB of RAM and about 10GB of disk space.

2. Enginuity. This is the Operating Environment of the Symmetrix. For the purposes of this VSA it runs in a SuSE Enterprise Linux 11VM. One of the big deals with the VMAX was that Enginuity was ported from a PowerPC CPU to a Intel x86 based architecture. Without this change this VSA would never exist. Now this VM is big, so big as a matter of fact i had to use a RC build of vSphere 5 in order to even get it to work. I was finally able to scale it down a bit, but at one point it was using 32 vCPU’s 92GB of RAM and about 250GB of disk space.

Obviously one of the challenges for using this in a lab is that I needed it to use fewer resources. In the beginning this VMAX was a Single Engine model, which means it had 16 “slices” running. Each director has 4 DA (backend) directors, and 4 FA (front end) directors. I quickly found this was the biggest reason i needed so much memory and CPU. After working with one developer Chakib, who totally rocks by the way. We were able to scale this down to 1 FA and 1 DA per director. One interesting side note, when I was going down this path I asked Chakib what kind of VM he was using to test this. His reply was, “I am not using this in a VM, I have a physical Linux box with 200GB of RAM”. So I clearly had some work to do. But in its current state it uses 8 vCPU and “ONLY” 48GB of RAM. Which is still pretty darn big, but a lot better than it was when we started.

The networking requirements are pretty simple, the SP needs 1 Public NIC so that we can use its management tools. 2 Internal NICs which is used for internal communication to the directors. In our case that’s the Linux VM. The Linux VM needed the 2 internal NICs and 1 NIC to present an iSCSI target to. Then we put out ESXi host’s VMkernel NIC on the same vSwitch so it can use the iSCSI target provided by the VSA.

So that’s all great you say, but what actually works? That’s a good question.

What works is using Standard Devices, and very small ones today. One of the things I was told when I was given the code was that this WON’T and CAN’T do any I/O. Which obviously proved to be a bit of an issue. Chakib really worked his butt of to get me something that does I/O. So this is not like the Celerra UBER VSA by @lynxbat, where you can run a VM off of it. We hope we can do that one day. Thin Pools work to the extent you can create them, and put devices in a pool, but when you present it to a host it will not work. This kept me from using the VSI SPM plugin for vSphere as part of my lab, hey we always have next year! The really neat part to me is that the internal tools (SymmWin) that run on the SP fully work. It’s like having an actually VMAX, but without all the fuss of getting a few 50A power drops. As an ex-customer this to me is the coolest part, I got to put on my own BIN files, use Inlines (internal tool used to directly talk to the hardware). As a total nerd this thing is a dream come true.

So what’s next?

Well a lot of that depends on YOU! Since this is a total science project we need to show those in Symmetrix Engineering this is worth putting their time and money into. I need everyone here at VMworld this week to come try this thing, give me feedback, leave comments here, and if you aren’t at the show, express your desire for us to continue working on it. If no one is interested this will ultimately die on the vine. Please fill out this form so we can show how many of you all would like to see this project continue.

I have to give special thanks to Chad Sakac (@sakacc), Chris Horn (@horn_Chris) for getting me involved in this project and letting me run with it. Also all of the support they gave me during this process.

Here is a link to the lab guide being used this week at VMworld. Take a look and let me know what you think!